This is a project to continue one of the most fruitful leads that accidentally resulted from our previously funded work. We have found that citrus becomes a source of Huanglongbing (HLB) inoculum for spreading the disease to other plants much earlier than previously thought. The working hypothesis is that the female psyllid finds an area of new flush to lay her eggs. As she is laying eggs, she probes the phloem to feed and transfers Candidatus Liberibacter asiaticus (Las) to the tree. As the eggs develop into nymphs, Las begins to multiply in that localized area of the plant, where the new nymphs then feed and acquire Las. Thus, infection of only a micro area of flush tissue where the nymphs develop is sufficient for the first generation of psyllids to become infected and to be vectors to spread the disease to other trees. Thus, the time-period after a tree becomes infested by infected psyllids until it is a donor for other trees could be as short as 15-30 days or less. The limitation is actually the time for the second generation of psyllids to develop. We are working with a group in the Math Department of UF to develop a model of spread of HLB in new planting of citrus. A manuscript is being prepared reporting these results. We are using this rapid screen to determine whether a peptide can inhibit Las multiplication within 60 days instead of approximately one year. However, this rapid screen measures resistance, but not tolerance. We are still screening using infected psyllids to inoculate plants, but this information allows us to know which plants are inoculated with Las and is greatly improving those assays also. This work is continuing as described above. Our major emphasis is to use this system to screen for the effect of specific RNAi constructs against psyllids. Preliminary results suggest that it is possible that RNAi can reduce the number of psyllids produced and/or reduce the number of psyllids that become infected with Las.